| 1
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1#
| 2#
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2# Copyright (c) 1998 Doug Rabson
| 3# Copyright (c) 1998,2004 Doug Rabson
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3# All rights reserved. 4# 5# Redistribution and use in source and binary forms, with or without 6# modification, are permitted provided that the following conditions 7# are met: 8# 1. Redistributions of source code must retain the above copyright 9# notice, this list of conditions and the following disclaimer. 10# 2. Redistributions in binary form must reproduce the above copyright 11# notice, this list of conditions and the following disclaimer in the 12# documentation and/or other materials provided with the distribution. 13# 14# THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17# ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24# SUCH DAMAGE. 25#
| 4# All rights reserved. 5# 6# Redistribution and use in source and binary forms, with or without 7# modification, are permitted provided that the following conditions 8# are met: 9# 1. Redistributions of source code must retain the above copyright 10# notice, this list of conditions and the following disclaimer. 11# 2. Redistributions in binary form must reproduce the above copyright 12# notice, this list of conditions and the following disclaimer in the 13# documentation and/or other materials provided with the distribution. 14# 15# THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18# ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25# SUCH DAMAGE. 26#
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26# $FreeBSD: head/sys/kern/bus_if.m 119967 2003-09-10 21:37:10Z marcel $
| 27# $FreeBSD: head/sys/kern/bus_if.m 132354 2004-07-18 16:30:31Z dfr $
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27# 28 29#include <sys/bus.h> 30
| 28# 29 30#include <sys/bus.h> 31
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| 32/** 33 * @defgroup BUS bus - KObj methods for drivers of devices with children 34 * @brief A set of methods required device drivers that support 35 * child devices. 36 * @{ 37 */
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31INTERFACE bus; 32 33# 34# Default implementations of some methods. 35# 36CODE { 37 static struct resource * 38 null_alloc_resource(device_t dev, device_t child, 39 int type, int *rid, u_long start, u_long end, 40 u_long count, u_int flags) 41 { 42 return (0); 43 } 44}; 45
| 38INTERFACE bus; 39 40# 41# Default implementations of some methods. 42# 43CODE { 44 static struct resource * 45 null_alloc_resource(device_t dev, device_t child, 46 int type, int *rid, u_long start, u_long end, 47 u_long count, u_int flags) 48 { 49 return (0); 50 } 51}; 52
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46# 47# This is called from system code which prints out a description of a 48# device. It should describe the attachment that the child has with 49# the parent. For instance the TurboLaser bus prints which node the 50# device is attached to. See bus_generic_print_child.9 for more 51# information. 52# This method returns the number of characters output. 53#
| 53/** 54 * @brief Print a description of a child device 55 * 56 * This is called from system code which prints out a description of a 57 * device. It should describe the attachment that the child has with 58 * the parent. For instance the TurboLaser bus prints which node the 59 * device is attached to. See bus_generic_print_child() for more 60 * information. 61 * 62 * @param _dev the device whose child is being printed 63 * @param _child the child device to describe 64 * 65 * @returns the number of characters output. 66 */
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54METHOD int print_child {
| 67METHOD int print_child {
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55 device_t dev; 56 device_t child;
| 68 device_t _dev; 69 device_t _child;
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57} DEFAULT bus_generic_print_child; 58
| 70} DEFAULT bus_generic_print_child; 71
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59# 60# Called for each child device that 61# did not succeed in probing for a 62# driver. 63#
| 72/** 73 * @brief Print a notification about an unprobed child device. 74 * 75 * Called for each child device that did not succeed in probing for a 76 * driver. 77 * 78 * @param _dev the device whose child was being probed 79 * @param _child the child device which failed to probe 80 */
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64METHOD void probe_nomatch {
| 81METHOD void probe_nomatch {
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65 device_t dev; 66 device_t child;
| 82 device_t _dev; 83 device_t _child;
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67}; 68
| 84}; 85
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69# 70# These two methods manage a bus specific set of instance variables of 71# a child device. The intention is that each different type of bus 72# defines a set of appropriate instance variables (such as ports and 73# irqs for ISA bus etc.) 74# 75# This information could be given to the child device as a struct but 76# that makes it hard for a bus to add or remove variables without 77# forcing an edit and recompile for all drivers which may not be 78# possible for vendor supplied binary drivers. 79 80# 81# Read an instance variable. Return 0 on success. 82#
| 86/** 87 * @brief Read the value of a bus-specific attribute of a device 88 * 89 * This method, along with BUS_WRITE_IVAR() manages a bus-specific set 90 * of instance variables of a child device. The intention is that 91 * each different type of bus defines a set of appropriate instance 92 * variables (such as ports and irqs for ISA bus etc.) 93 * 94 * This information could be given to the child device as a struct but 95 * that makes it hard for a bus to add or remove variables without 96 * forcing an edit and recompile for all drivers which may not be 97 * possible for vendor supplied binary drivers. 98 * 99 * This method copies the value of an instance variable to the 100 * location specified by @p *_result. 101 * 102 * @param _dev the device whose child was being examined 103 * @param _child the child device whose instance variable is 104 * being read 105 * @param _index the instance variable to read 106 * @param _result a loction to recieve the instance variable 107 * value 108 * 109 * @retval 0 success 110 * @retval ENOENT no such instance variable is supported by @p 111 * _dev 112 */
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83METHOD int read_ivar { 84 device_t _dev; 85 device_t _child;
| 113METHOD int read_ivar { 114 device_t _dev; 115 device_t _child;
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86 int _indx;
| 116 int _index;
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87 uintptr_t *_result; 88}; 89
| 117 uintptr_t *_result; 118}; 119
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90# 91# Write an instance variable. Return 0 on success. 92#
| 120/** 121 * @brief Write the value of a bus-specific attribute of a device 122 * 123 * This method sets the value of an instance variable to @p _value. 124 * 125 * @param _dev the device whose child was being updated 126 * @param _child the child device whose instance variable is 127 * being written 128 * @param _index the instance variable to write 129 * @param _value the value to write to that instance variable 130 * 131 * @retval 0 success 132 * @retval ENOENT no such instance variable is supported by @p 133 * _dev 134 * @retval EINVAL the instance variable was recognised but 135 * contains a read-only value 136 */
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93METHOD int write_ivar { 94 device_t _dev; 95 device_t _child; 96 int _indx; 97 uintptr_t _value; 98}; 99
| 137METHOD int write_ivar { 138 device_t _dev; 139 device_t _child; 140 int _indx; 141 uintptr_t _value; 142}; 143
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100# 101# Called after the child's DEVICE_DETACH method to allow the parent 102# to reclaim any resources allocated on behalf of the child. 103#
| 144/** 145 * @brief Notify a bus that a child was detached 146 * 147 * Called after the child's DEVICE_DETACH() method to allow the parent 148 * to reclaim any resources allocated on behalf of the child. 149 * 150 * @param _dev the device whose child changed state 151 * @param _child the child device which changed state 152 */
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104METHOD void child_detached { 105 device_t _dev; 106 device_t _child; 107}; 108
| 153METHOD void child_detached { 154 device_t _dev; 155 device_t _child; 156}; 157
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109# 110# Called when a new driver is added to the devclass which owns this 111# bus. The generic implementation of this method attempts to probe and 112# attach any un-matched children of the bus. 113#
| 158/** 159 * @brief Notify a bus that a new driver was added 160 * 161 * Called when a new driver is added to the devclass which owns this 162 * bus. The generic implementation of this method attempts to probe and 163 * attach any un-matched children of the bus. 164 * 165 * @param _dev the device whose devclass had a new driver 166 * added to it 167 * @param _driver the new driver which was added 168 */
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114METHOD void driver_added { 115 device_t _dev; 116 driver_t *_driver; 117} DEFAULT bus_generic_driver_added; 118
| 169METHOD void driver_added { 170 device_t _dev; 171 driver_t *_driver; 172} DEFAULT bus_generic_driver_added; 173
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119# 120# For busses which use use drivers supporting DEVICE_IDENTIFY to 121# enumerate their devices, these methods are used to create new 122# device instances. If place is non-NULL, the new device will be 123# added after the last existing child with the same order. 124#
| 174/** 175 * @brief Create a new child device 176 * 177 * For busses which use use drivers supporting DEVICE_IDENTIFY() to 178 * enumerate their devices, this method is used to create new 179 * device instances. The new device will be added after the last 180 * existing child with the same order. 181 * 182 * @param _dev the bus device which will be the parent of the 183 * new child device 184 * @param _order a value which is used to partially sort the 185 * children of @p _dev - devices created using 186 * lower values of @p _order appear first in @p 187 * _dev's list of children 188 * @param _name devclass name for new device or @c NULL if not 189 * specified 190 * @param _unit unit number for new device or @c -1 if not 191 * specified 192 */
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125METHOD device_t add_child { 126 device_t _dev; 127 int _order; 128 const char *_name; 129 int _unit; 130}; 131
| 193METHOD device_t add_child { 194 device_t _dev; 195 int _order; 196 const char *_name; 197 int _unit; 198}; 199
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132# 133# Allocate a system resource attached to `dev' on behalf of `child'. 134# The types are defined in <machine/resource.h>; the meaning of the 135# resource-ID field varies from bus to bus (but *rid == 0 is always 136# valid if the resource type is). start and end reflect the allowable 137# range, and should be passed as `0UL' and `~0UL', respectively, if 138# the client has no range restriction. count is the number of consecutive 139# indices in the resource required. flags is a set of sharing flags 140# as defined in <sys/rman.h>. 141# 142# Returns a resource or a null pointer on failure. The caller is 143# responsible for calling rman_activate_resource() when it actually 144# uses the resource. 145#
| 200/** 201 * @brief Allocate a system resource 202 * 203 * This method is called by child devices of a bus to allocate resources. 204 * The types are defined in <machine/resource.h>; the meaning of the 205 * resource-ID field varies from bus to bus (but @p *rid == 0 is always 206 * valid if the resource type is). If a resource was allocated and the 207 * caller did not use the RF_ACTIVE to specify that it should be 208 * activated immediately, the caller is responsible for calling 209 * BUS_ACTIVATE_RESOURCE() when it actually uses the resource. 210 * 211 * @param _dev the parent device of @p _child 212 * @param _child the device which is requesting an allocation 213 * @param _type the type of resource to allocate 214 * @param _rid a pointer to the resource identifier 215 * @param _start hint at the start of the resource range - pass 216 * @c 0UL for any start address 217 * @param _end hint at the end of the resource range - pass 218 * @c ~0UL for any end address 219 * @param _count hint at the size of range required - pass @c 1 220 * for any size 221 * @param _flags any extra flags to control the resource 222 * allocation - see @c RF_XXX flags in 223 * <sys/rman.h> for details 224 * 225 * @returns the resource which was allocated or @c NULL if no 226 * resource could be allocated 227 */
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146METHOD struct resource * alloc_resource { 147 device_t _dev; 148 device_t _child; 149 int _type; 150 int *_rid; 151 u_long _start; 152 u_long _end; 153 u_long _count; 154 u_int _flags; 155} DEFAULT null_alloc_resource; 156
| 228METHOD struct resource * alloc_resource { 229 device_t _dev; 230 device_t _child; 231 int _type; 232 int *_rid; 233 u_long _start; 234 u_long _end; 235 u_long _count; 236 u_int _flags; 237} DEFAULT null_alloc_resource; 238
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| 239/** 240 * @brief Activate a resource 241 * 242 * Activate a resource previously allocated with 243 * BUS_ALLOC_RESOURCE(). This may for instance map a memory region 244 * into the kernel's virtual address space. 245 * 246 * @param _dev the parent device of @p _child 247 * @param _child the device which allocated the resource 248 * @param _type the type of resource 249 * @param _rid the resource identifier 250 * @param _r the resource to activate 251 */
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157METHOD int activate_resource { 158 device_t _dev; 159 device_t _child; 160 int _type; 161 int _rid; 162 struct resource *_r; 163}; 164
| 252METHOD int activate_resource { 253 device_t _dev; 254 device_t _child; 255 int _type; 256 int _rid; 257 struct resource *_r; 258}; 259
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| 260/** 261 * @brief Deactivate a resource 262 * 263 * Deactivate a resource previously allocated with 264 * BUS_ALLOC_RESOURCE(). This may for instance unmap a memory region 265 * from the kernel's virtual address space. 266 * 267 * @param _dev the parent device of @p _child 268 * @param _child the device which allocated the resource 269 * @param _type the type of resource 270 * @param _rid the resource identifier 271 * @param _r the resource to deactivate 272 */
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165METHOD int deactivate_resource { 166 device_t _dev; 167 device_t _child; 168 int _type; 169 int _rid; 170 struct resource *_r; 171}; 172
| 273METHOD int deactivate_resource { 274 device_t _dev; 275 device_t _child; 276 int _type; 277 int _rid; 278 struct resource *_r; 279}; 280
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173# 174# Free a resource allocated by the preceding method. The `rid' value 175# must be the same as the one returned by BUS_ALLOC_RESOURCE (which 176# is not necessarily the same as the one the client passed). 177#
| 281/** 282 * @brief Release a resource 283 * 284 * Free a resource allocated by the BUS_ALLOC_RESOURCE. The @p _rid 285 * value must be the same as the one returned by BUS_ALLOC_RESOURCE() 286 * (which is not necessarily the same as the one the client passed). 287 * 288 * @param _dev the parent device of @p _child 289 * @param _child the device which allocated the resource 290 * @param _type the type of resource 291 * @param _rid the resource identifier 292 * @param _r the resource to release 293 */
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178METHOD int release_resource { 179 device_t _dev; 180 device_t _child; 181 int _type; 182 int _rid; 183 struct resource *_res; 184}; 185
| 294METHOD int release_resource { 295 device_t _dev; 296 device_t _child; 297 int _type; 298 int _rid; 299 struct resource *_res; 300}; 301
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| 302/** 303 * @brief Install an interrupt handler 304 * 305 * This method is used to associate an interrupt handler function with 306 * an irq resource. When the interrupt triggers, the function @p _intr 307 * will be called with the value of @p _arg as its single 308 * argument. The value returned in @p *_cookiep is used to cancel the 309 * interrupt handler - the caller should save this value to use in a 310 * future call to BUS_TEARDOWN_INTR(). 311 * 312 * @param _dev the parent device of @p _child 313 * @param _child the device which allocated the resource 314 * @param _irq the resource representing the interrupt 315 * @param _flags a set of bits from enum intr_type specifying 316 * the class of interrupt 317 * @param _intr the function to call when the interrupt 318 * triggers 319 * @param _arg a value to use as the single argument in calls 320 * to @p _intr 321 * @param _cookiep a pointer to a location to recieve a cookie 322 * value that may be used to remove the interrupt 323 * handler 324 */
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186METHOD int setup_intr { 187 device_t _dev; 188 device_t _child; 189 struct resource *_irq; 190 int _flags; 191 driver_intr_t *_intr; 192 void *_arg; 193 void **_cookiep; 194}; 195
| 325METHOD int setup_intr { 326 device_t _dev; 327 device_t _child; 328 struct resource *_irq; 329 int _flags; 330 driver_intr_t *_intr; 331 void *_arg; 332 void **_cookiep; 333}; 334
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| 335/** 336 * @brief Uninstall an interrupt handler 337 * 338 * This method is used to disassociate an interrupt handler function 339 * with an irq resource. The value of @p _cookie must be the value 340 * returned from a previous call to BUS_SETUP_INTR(). 341 * 342 * @param _dev the parent device of @p _child 343 * @param _child the device which allocated the resource 344 * @param _irq the resource representing the interrupt 345 * @param _cookie the cookie value returned when the interrupt 346 * was originally registered 347 */
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196METHOD int teardown_intr { 197 device_t _dev; 198 device_t _child; 199 struct resource *_irq; 200 void *_cookie; 201}; 202
| 348METHOD int teardown_intr { 349 device_t _dev; 350 device_t _child; 351 struct resource *_irq; 352 void *_cookie; 353}; 354
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203# 204# Set the range used for a particular resource. Return EINVAL if 205# the type or rid are out of range. 206#
| 355/** 356 * @brief Define a resource which can be allocated with 357 * BUS_ALLOC_RESOURCE(). 358 * 359 * This method is used by some busses (typically ISA) to allow a 360 * driver to describe a resource range that it would like to 361 * allocate. The resource defined by @p _type and @p _rid is defined 362 * to start at @p _start and to include @p _count indices in its 363 * range. 364 * 365 * @param _dev the parent device of @p _child 366 * @param _child the device which owns the resource 367 * @param _type the type of resource 368 * @param _rid the resource identifier 369 * @param _start the start of the resource range 370 * @param _count the size of the resource range 371 */
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207METHOD int set_resource { 208 device_t _dev; 209 device_t _child; 210 int _type; 211 int _rid; 212 u_long _start; 213 u_long _count; 214}; 215
| 372METHOD int set_resource { 373 device_t _dev; 374 device_t _child; 375 int _type; 376 int _rid; 377 u_long _start; 378 u_long _count; 379}; 380
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216# 217# Get the range for a resource. Return ENOENT if the type or rid are 218# out of range or have not been set. 219#
| 381/** 382 * @brief Describe a resource 383 * 384 * This method allows a driver to examine the range used for a given 385 * resource without actually allocating it. 386 * 387 * @param _dev the parent device of @p _child 388 * @param _child the device which owns the resource 389 * @param _type the type of resource 390 * @param _rid the resource identifier 391 * @param _start the address of a location to recieve the start 392 * index of the resource range 393 * @param _count the address of a location to recieve the size 394 * of the resource range 395 */
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220METHOD int get_resource { 221 device_t _dev; 222 device_t _child; 223 int _type; 224 int _rid; 225 u_long *_startp; 226 u_long *_countp; 227}; 228
| 396METHOD int get_resource { 397 device_t _dev; 398 device_t _child; 399 int _type; 400 int _rid; 401 u_long *_startp; 402 u_long *_countp; 403}; 404
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229# 230# Delete a resource. 231#
| 405/** 406 * @brief Delete a resource. 407 * 408 * Use this to delete a resource (possibly one previously added with 409 * BUS_SET_RESOURCE()). 410 * 411 * @param _dev the parent device of @p _child 412 * @param _child the device which owns the resource 413 * @param _type the type of resource 414 * @param _rid the resource identifier 415 */
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232METHOD void delete_resource { 233 device_t _dev; 234 device_t _child; 235 int _type; 236 int _rid; 237}; 238
| 416METHOD void delete_resource { 417 device_t _dev; 418 device_t _child; 419 int _type; 420 int _rid; 421}; 422
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239# 240# Return a struct resource_list. 241#
| 423/** 424 * @brief Return a struct resource_list. 425 * 426 * Used by drivers which use bus_generic_rl_alloc_resource() etc. to 427 * implement their resource handling. It should return the resource 428 * list of the given child device. 429 * 430 * @param _dev the parent device of @p _child 431 * @param _child the device which owns the resource list 432 */
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242METHOD struct resource_list * get_resource_list { 243 device_t _dev; 244 device_t _child; 245} DEFAULT bus_generic_get_resource_list; 246
| 433METHOD struct resource_list * get_resource_list { 434 device_t _dev; 435 device_t _child; 436} DEFAULT bus_generic_get_resource_list; 437
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247# 248# Is the hardware described by _child still attached to the system? 249# 250# This method should return 0 if the device is not present. It should 251# return -1 if it is present. Any errors in determining should be 252# returned as a normal errno value. Client drivers are to assume that 253# the device is present, even if there is an error determining if it is 254# there. Busses are to try to avoid returning errors, but newcard will return 255# an error if the device fails to implement this method. 256#
| 438/** 439 * @brief Is the hardware described by @p _child still attached to the 440 * system? 441 * 442 * This method should return 0 if the device is not present. It should 443 * return -1 if it is present. Any errors in determining should be 444 * returned as a normal errno value. Client drivers are to assume that 445 * the device is present, even if there is an error determining if it is 446 * there. Busses are to try to avoid returning errors, but newcard will return 447 * an error if the device fails to implement this method. 448 * 449 * @param _dev the parent device of @p _child 450 * @param _child the device which is being examined 451 */
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257METHOD int child_present { 258 device_t _dev; 259 device_t _child; 260} DEFAULT bus_generic_child_present; 261
| 452METHOD int child_present { 453 device_t _dev; 454 device_t _child; 455} DEFAULT bus_generic_child_present; 456
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262# 263# Returns the pnp info for this device. Return it as a string. If the 264# string is insufficient for the storage, then return EOVERFLOW. 265#
| 457/** 458 * @brief Returns the pnp info for this device. 459 * 460 * Return it as a string. If the string is insufficient for the 461 * storage, then return EOVERFLOW. 462 * 463 * @param _dev the parent device of @p _child 464 * @param _child the device which is being examined 465 * @param _buf the address of a buffer to receive the pnp 466 * string 467 * @param _buflen the size of the buffer pointed to by @p _buf 468 */
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266METHOD int child_pnpinfo_str { 267 device_t _dev; 268 device_t _child; 269 char *_buf; 270 size_t _buflen; 271}; 272
| 469METHOD int child_pnpinfo_str { 470 device_t _dev; 471 device_t _child; 472 char *_buf; 473 size_t _buflen; 474}; 475
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273# 274# Returns the location for this device. Return it as a string. If the 275# string is insufficient for the storage, then return EOVERFLOW. 276#
| 476/** 477 * @brief Returns the location for this device. 478 * 479 * Return it as a string. If the string is insufficient for the 480 * storage, then return EOVERFLOW. 481 * 482 * @param _dev the parent device of @p _child 483 * @param _child the device which is being examined 484 * @param _buf the address of a buffer to receive the location 485 * string 486 * @param _buflen the size of the buffer pointed to by @p _buf 487 */
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277METHOD int child_location_str { 278 device_t _dev; 279 device_t _child; 280 char *_buf; 281 size_t _buflen; 282}; 283
| 488METHOD int child_location_str { 489 device_t _dev; 490 device_t _child; 491 char *_buf; 492 size_t _buflen; 493}; 494
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284# 285# Allow (bus) drivers to specify the trigger mode and polarity of the 286# specified interrupt. 287#
| 495/** 496 * @brief Allow (bus) drivers to specify the trigger mode and polarity 497 * of the specified interrupt. 498 * 499 * @param _dev the bus device 500 * @param _irq the interrupt number to modify 501 * @param _trig the trigger mode required 502 * @param _pol the interrupt polarity required 503 */
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288METHOD int config_intr { 289 device_t _dev; 290 int _irq; 291 enum intr_trigger _trig; 292 enum intr_polarity _pol; 293} DEFAULT bus_generic_config_intr;
| 504METHOD int config_intr { 505 device_t _dev; 506 int _irq; 507 enum intr_trigger _trig; 508 enum intr_polarity _pol; 509} DEFAULT bus_generic_config_intr;
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